CN217951532U - Temperature shows pipeline joint, temperature shows water delivery device and temperature shows water installation - Google Patents

Abstract

The utility model discloses a temperature shows pipe joint, temperature shows water delivery device and temperature shows water installation with supply portion casing relates to water pipe technical field. This temperature shows pipeline connects, including: the joint main body at least comprises a water inlet connecting part used for connecting a water inlet pipeline, a component connecting part used for connecting a water outlet component, and a joint main pipeline positioned between the water inlet connecting part and the component connecting part; a temperature display part for sensing the water temperature in the main pipeline of the joint and displaying the temperature; the electric energy supply part at least comprises a supply part shell, a power generation set for supplying power to the temperature display part and a driving set driven by the power generation set; the utility model provides a supply portion that the temperature shows the pipeline and connects is equipped with logical water flow in the casing for rivers flow to the component connecting portion from the connecting portion of intaking, do not get into the installation cavity that holds power generation group and drive group simultaneously.

Description

Temperature shows pipeline joint, temperature shows water delivery device and temperature shows water installation

Technical Field

The utility model belongs to the technical field of the water pipe, refer in particular to a temperature shows pipeline joint, temperature shows water delivery device and temperature shows water installation.

Background

At present, be equipped with the temperature display spare that shows the temperature in hose and the gondola water faucet that is used for in the aspect of the bathroom now, temperature display spare is usually by generator electricity generation, consequently need set up the generator in the temperature display pipe joint, but current generator can't directly set up in the hose.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: a temperature-display pipe joint, a temperature-display water delivery device and a temperature-display water outlet device with a supply part shell are provided.

The purpose of the utility model is realized like this:

a temperature display pipeline joint comprises:

the joint main body at least comprises a water inlet connecting part used for connecting a water inlet pipeline, a component connecting part used for connecting a water outlet component, and a joint main pipeline positioned between the water inlet connecting part and the component connecting part;

a temperature display part for sensing the water temperature in the main pipeline of the joint and displaying the temperature; and

the electric energy supply part at least comprises a supply part shell, a power generation set for supplying power to the temperature display part and a driving set driven by the power generation set;

wherein the supply section casing has at least:

a water passage, one end of which is communicated with the water inlet connecting part and the other end of which is communicated with the component connecting part; and

the installation chamber is used for installing the power generation group and the driving group;

and the water flow channel and the mounting chamber are independently arranged.

Wherein the water passage passes through the supply part housing.

Wherein the water passage is arranged along the axial direction of the joint main body.

Wherein the supply section casing further has at least:

a concave part arranged on the outer side surface of the supply part shell;

wherein the temperature display part penetrates through the joint main body and at least partially extends into the concave part.

Wherein, the temperature display part adopts digital display to display the temperature,

the temperature display part at least has:

the digital display screen is arranged on the outer surface of the joint main body;

the MCU processor is connected with the digital display screen; and (c) a second step of,

and the temperature sensor is arranged at the top end of the electric energy supply part and used for sensing the water temperature.

Wherein, the temperature display part adopts a color lamp to display the temperature,

the temperature display part at least has:

the color lamp is arranged on the outer surface of the joint main body;

the MCU processor is connected with the digital display screen;

the temperature sensor is arranged at the top end of the electric energy supply part and used for sensing water temperature and sending out an instruction; and the number of the first and second groups,

the circuit board is arranged on the temperature sensor and can receive the instruction of the temperature sensor and emit different lights;

the temperature sensor senses water temperature and then the water temperature is processed by the MCU processor and displayed on the digital display screen.

A temperature display water delivery device comprises the temperature display pipeline joint; also includes:

and the water inlet pipeline is connected with the water inlet connecting part, so that water can enter the temperature display pipeline joint from the water inlet pipeline.

A temperature display water outlet device comprises the temperature display pipeline joint; also includes:

and the water outlet component is connected with the component connecting part, so that water can flow to the water outlet component from the inside of the temperature display pipeline joint.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

a water passage is provided in the supply section housing so that water flows from the water inlet connection to the component connection without entering the mounting chamber 333 that houses the generator set and the drive set.

Drawings

FIG. 1 is a schematic structural diagram of the first embodiment;

FIG. 2 isbase:Sub>A cross-sectional view A-A of FIG. 1;

FIG. 3 is a schematic structural diagram of an electric energy supply section according to the first embodiment;

FIG. 4 is a schematic view of a structure of a flow guide member according to the first embodiment;

FIG. 5 is a schematic structural view of an impeller according to the first embodiment;

FIG. 6 is an exploded view of a shaft and impeller body according to one embodiment;

FIG. 7 is a schematic view of a supply housing according to an embodiment;

FIG. 8 is a schematic view of the connector body after the housing has been concealed;

FIG. 9 is a sectional view taken along line B-B of FIG. 8;

FIG. 10 is a schematic view of a water flow passage according to an embodiment;

fig. 11 is a cross-sectional view taken along line C-C of fig. 10.

In the figure: 1-a connector body; 11-a component connection; 12-a water inlet connection; 13-mounting holes; 2-a temperature display part; 21-a digital display screen; 22-MCU processor; 23-a temperature sensor; 24-color lamps; 3-an electric energy supply; 31-a drive group; 311-an impeller; 3111-impeller body; 3112-carrying out punching ribs; 3113-limiting hole; 312-a flow guide; 3121-a deflector base; 3122-flow guiding ribs; 3123-guiding holes; 3124-a cylindrical mounting cavity; 3125-cutting line segments; 3126-a drainage segment; 32-a power generation set; 321-a rotating shaft; 3211-a non-circular limit rod part; 322-a magnetic member; 33-supply section housing; 331-water flow passage; 332-a recess; 333-mounting chamber 333; 4-water inlet pipeline.

Detailed Description

The present invention will be further described with reference to specific embodiments and drawings, but the present invention is not limited to these embodiments.

[ EXAMPLES one ]

The first embodiment specifically provides a temperature display pipeline joint, a temperature display water conveying device and a temperature display water outlet device which can display the water temperature on the surface.

Referring to fig. 1 in particular, fig. 1 is a schematic structural diagram of the first embodiment. As shown in fig. 1, the temperature display pipeline joint, the temperature display water delivery device and the temperature display water delivery device provided by the embodiment comprise a joint main body 1, wherein the lower end of the joint main body 1 is connected with a water inlet pipeline 4, the bottom end of the joint main body 1 is connected with a nut, and the bottom end of the joint main body 1 can be connected with the water inlet pipeline 4 through the nut.

As shown in figure 1, joint main part 1 has temperature display portion 2, can respond to the temperature in the joint main part 1 and show, and temperature display portion 2 includes several display screens 21, and the digital display screen 21 part exposes in joint main part 1, and the temperature of water in the hose passes through digital display screen 21 and shows, and the user can observe the leaving water temperature from the outside and prevent scalding. Meanwhile, the water inlet pipeline 4 has a universal rotating structure, so that the water inlet pipeline 4 can be prevented from being knotted or wound together in the using process. In this embodiment, the water inlet pipe 4 may be a hose or a multi-layer pipe.

Fig. 2 isbase:Sub>A sectional viewbase:Sub>A-base:Sub>A in fig. 1. As shown in fig. 2, the joint main body 1 has at least a housing, and a temperature display part 2 and an electric power supply part 3 are provided in the housing. The electric energy supply part 3 supplies power to the temperature display part 2 through hydroelectric power generation.

As shown in fig. 2, the bottom end of the joint main body 1 is provided with a water inlet connecting part 12, and the top end is provided with a member connecting part 11; the water inlet pipeline 4 is connected with the water inlet connecting part 12, so that water can enter the temperature display pipeline joint from the water inlet pipeline 4 to form a temperature display water conveying device; the water outlet component is connected with the component connecting part 11, so that water can flow into the water outlet component from the temperature display pipeline joint to form the temperature display water outlet device. The water outlet component can be a shower head or a faucet, and can also be other components capable of discharging water from the temperature display pipeline joint.

As shown in fig. 2, the upper end of the water inlet pipe 4 extends into the joint body 1. The top end of the water inlet pipeline 4 is provided with a clamping part extending towards the center. Meanwhile, a positioning part extends inwards from the inner side of the joint main body 1, a connecting piece is installed between the positioning part and the clamping part, and water in the water inlet pipeline 4 enters the joint main body 1 from the water inlet pipe.

As shown in fig. 2, an electric power supply portion 3 is provided above the positioning portion. The electric energy supply part 3 is provided with a driving group 31, the driving group 31 is arranged at the bottom end of the electric energy supply part 3, and the bottom end of the driving group 31 is abutted against the upper end of the positioning part, so that the driving group 31 does not shake violently during working. An impeller 311 is arranged in the driving group 31, and water flows into the driving group 31 to drive the impeller 311 to rotate.

As shown in fig. 2, the power supply part 3 further has a generator set 32, the generator set 32 is connected to the other end of the rotating shaft 321, the generator set 32 has a rotating shaft 321, and one end of the rotating shaft 321 extends into the driving set 31, so that the rotating shaft 321 rotates synchronously with the driving set 31. The power generation set 32 further has a magnetic member 322, water enters the electric energy supply portion 3 from the driving set 31, impacts the impeller 311 and drives the rotating shaft 321 to rotate, and the magnetic member 322 rotates synchronously with the rotating shaft 321. In this embodiment, the magnetic member 322 includes a coil, and the coil cuts the magnetic induction line while rotating, and generates a current through the magnetic field to supply power to the temperature display part 2.

At the same time, a seal is also provided between the generator set 32 and the drive set 31 to prevent water from leaking from the drive set 31 into the generator set 32.

As shown in fig. 2, the temperature display part 2 has a digital display screen 21 and an MCU processor 22. The digital display screen 21 is arranged on the outer side of the joint main body 1 and can display the water temperature in the joint main body 1; the MCU processor 22 is connected with the digital display screen 21 and arranged through the joint main body 1.

Meanwhile, the top end of the electric energy supply part 3 is provided with a temperature sensor 23, and the MCU is connected with the temperature sensor 23 through an I2C bus. The I2C bus occupies 2 MCU input/output lines, and the communication between the two lines is completely completed by software. After the MCU reads the sensor measurements, it then performs a conversion and displays the result on the LCD. The whole treatment process comprises the following steps: and judging the sign of the display result, converting the binary code into a BCD code, and transmitting data to a related register of the LCD.

Fig. 3 is a schematic structural diagram of the electric energy supply unit according to the first embodiment. As shown in fig. 3, the driving set 31 at least has a diversion component 312 and an impeller 311, and as can be seen from fig. 2, the diversion component 312 is disposed on one side of the water inlet end of the impeller 311, and abuts against the positioning component in this embodiment.

Fig. 4 is a schematic structural view of the flow guide member according to the first embodiment. As shown in fig. 4, the flow guiding member 312 has at least a flow guiding base 3121, and the flow guiding base 3121 is disposed in the joint main body 1; the flow guiding piece 312 is further provided with a plurality of flow guiding ribs 3122, and a flow guiding hole 3123 is formed between two adjacent flow guiding ribs 3122 for water in the water inlet pipe 4 to flow into the driving group 31; meanwhile, the guiding holes 3123 allow the water to have a higher flow rate and pressure when entering the driving group 31.

The guide ribs 3122 may guide the direction of the water flow entering the drive group 31.

Fig. 5 is a schematic structural diagram of an impeller according to the first embodiment. As shown in fig. 5, the impeller 311 has at least an impeller body 3111, and the impeller body 3111 is connected to the rotating shaft 321; the impeller 311 is also provided with an outer bearing shim 3112, and the outer bearing shim 3112 is arranged on the outer side surface corresponding to the water inlet end of the impeller 311; the extending direction of the flow guide holes 3123 corresponds to the direction of the outer support ribs 3112. In this embodiment, the deflector 312 has at least a cylindrical mounting cavity 3124, and the impeller 311 is disposed within the cylindrical mounting cavity 3124; the diversion rib 3122 at least has a tangent segment 3125 and a drainage segment 3126; the tangent line 3125 is configured along the tangential direction of the cylindrical mounting cavity 3124; the drainage section 3126 is configured along the outer edge direction of the cylindrical mounting cavity 3124; the diversion hole 3123 is disposed between the tangent line segment 3125 and the drainage segment 3126 of another adjacent diversion rib 3122, so that water flow can impact the impeller 311 after entering the driving group 31, and the impeller 311 is driven to rotate smoothly. The "tangential direction configuration" and the "outer edge direction configuration" described in this embodiment mean that, as shown in fig. 4, the flow guide piece 312 has the flow guide rib 3122, the flow guide rib 3122 is connected to the flow guide base 3121 at a tangent line, and then is attached to the flow guide base 3121 at the outer edge of the flow guide base 3121. FIG. 6 is an exploded view of a shaft and impeller body according to one embodiment. As shown in fig. 6, the inner end of the impeller body 3111 has a limiting hole 3113, the end of the rotating shaft 321 has a non-circular limiting rod portion 3211, and the non-circular limiting rod portion 3211 is identical to the limiting hole 3113 in contour, so that the non-circular limiting rod portion 3211 can extend into the limiting hole 3113, thereby completing the connection between the power generation set 32 and the driving set 31.

FIG. 7 is a schematic view of a supply housing according to an embodiment. As shown in fig. 7, the electric power supply portion 3 further has at least a supply housing 33, and the power generation group 32 and the drive group 31 are located inside the supply housing 33; with reference to fig. 2, a sealing ring may be provided between the supply housing 33 and the joint body 1 to increase the sealing property. The supply case 33 has at least a flow path 331, one end of the flow path 331 communicates with the guide hole 3123, and the other end of the flow path 331 communicates with the member connecting portion 11, and in the present embodiment, the communication means that water may enter the flow path 331 from the guide hole 3123 and flow from the other end of the flow path 331 to the member connecting portion 11, and it is not necessary that the guide hole 3123, the flow path 331 and the member connecting portion 11 are closely attached.

As shown in fig. 7, the supply housing 33 further has at least a recess 332, and the recess 332 is disposed on the outer side surface of the housing; wherein, the temperature display part 2 passes through the joint main body 1 and extends into the recess 332. The top end of the electric energy supply part 3 is also provided with a water outlet, and water flowing into the electric energy supply part 3 flows upwards from the side wall of the other side of the temperature display part 2 after impacting the impeller 311, and then flows out from the water outlet at the top end of the electric energy supply part 3.

As shown in fig. 7, the top end of the electric energy supply portion 3 is further provided with a wiring hole, and the wiring hole is disposed on the opposite side of the water outlet hole. In practical use, the temperature sensor 23 at the top end of the power supply part 3 is connected with an I2C bus, and the I2C bus passes through the wiring hole to be connected with the MCU processor 22.

The working principle is as follows: the water in the water inlet pipe 4 enters the joint body 1 from the water inlet connecting part 12, and then enters the driving group 31 from the diversion hole 3123 to impact the impeller, so as to drive the rotating shaft 321 to rotate, and the power generation group 32 generates power to enable the temperature sensor 23 at the top end of the electric energy supply part 3 to work. Meanwhile, water flows into the component connecting part 11 through the water flow passage 331 of the supply case 33, the temperature sensor 23 senses the water temperature and transmits a signal to the MCU processor 22 through a wire, and finally the water temperature is displayed on the digital display screen 21. Finally, the water is discharged from the water discharge member.

[ example two ]

The second embodiment provides a temperature display pipeline joint with a color lamp 24. See in particular fig. 8.

Fig. 8 is a schematic structural diagram of the second embodiment. As shown in fig. 8, the second embodiment is substantially the same as the first embodiment except that a color lamp 24 is disposed at the top end of the temperature display pipeline joint in the second embodiment. In this embodiment, the color lamps 24 are transparent PU fittings, and light can be transmitted through the color lamps 24 to show color, so that the color lamps 24 can reflect light of different colors in actual use.

Fig. 9 is a sectional view B-B in fig. 8. As shown in fig. 9, the temperature sensor 23 of the present embodiment is provided with a circuit board, and the circuit board is provided with a light source, specifically, an RGB three-color lamp. The temperature sensor 23 senses the water temperature and sends a signal to the circuit board, and the circuit board receives the signal and enables the light source to emit light with different colors.

It should be noted that, under the control of the program in the circuit board, the water temperature is in different temperature ranges, so that the light source emits lights of different colors, in this embodiment, 3 temperature ranges are provided so that the light source emits lights of 3 colors, and in actual production, more temperature ranges can be set, and the light source and the circuit board are adjusted at the same time so that the light source can emit lights of corresponding colors.

As shown in fig. 9, after the light source emits colored light, the light is reflected by the water in the component connecting part 11 and refracted toward the color lamp 24, and the color lamp 24 is transparent, so that the color lamp 24 shows corresponding color for the user to determine the water temperature.

In addition, a color lamp can be arranged on the outer surface of the shell and connected with the circuit board, so that when the water temperature is lower than a certain temperature, the color lamp displays blue; when the water temperature is in a certain interval, the color lamp displays green; when the water temperature is higher than a certain temperature, the color lamp displays red. The user can only regard as the reference through the colour that the color lamp shows, foretell colour, in the actual production, also can set up other colours and be used for showing the temperature, as long as can clearly judge the temperature interval simply, scald or suffer from the cold when avoiding using can.

[ EXAMPLE III ]

The third embodiment is substantially the same as the second embodiment, except that the third embodiment only uses the color lamp 24 to indicate the water temperature in the temperature display pipeline joint, and no digital display screen is provided to display the specific temperature.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a temperature shows pipe joint which characterized in that, including:

the joint body (1) at least comprises a water inlet connecting part (12) used for connecting the water inlet pipeline (4), a component connecting part (11) used for connecting the water outlet component, and a joint main pipeline positioned between the water inlet connecting part (12) and the component connecting part (11);

a temperature display part (2) for sensing the water temperature in the main pipeline of the joint and displaying the temperature; and

an electric energy supply unit (3) having at least a supply unit housing (33), a power generation unit (32) for supplying power to the temperature display unit (2), and a drive unit (31) driven by the power generation unit (32);

wherein the supply section housing (33) has at least:

a water passage (331) having one end communicating with the water inlet connection part (12) and the other end communicating with the member connection part (11); and

a mounting chamber for mounting the generator set (32) and the drive set (31);

and, the water passage (331) is provided independently of the installation chamber.

2. The temperature-display pipeline joint according to claim 1,

wherein the water passage flow path (331) penetrates the supply section case (33).

3. The temperature-display pipeline joint according to claim 1,

wherein the water passage flow path (331) is arranged along the axial direction of the joint main body (1).

4. The temperature-display line connection according to claim 1, characterized in that the supply housing (33) further has at least:

a recessed part (332) provided on the outer side surface of the supply part housing (33);

wherein the temperature display part (2) penetrates through the joint main body (1) and at least partially extends into the recess (332).

5. The temperature-display pipeline joint according to claim 1,

the temperature display part (2) displays the temperature by digital display,

the temperature display part (2) at least comprises:

the digital display screen (21) is arranged on the outer surface of the joint main body (1);

the MCU processor (22) is connected with the digital display screen (21); and the number of the first and second groups,

and the temperature sensor (23) is arranged at the top end of the electric energy supply part (3) and is used for sensing the water temperature.

6. The temperature-display pipeline joint according to claim 5,

the temperature display part (2) adopts a color lamp to display the temperature,

the temperature display unit (2) has at least:

the color lamp is arranged on the outer surface of the joint main body (1);

the MCU processor (22) is connected with the digital display screen (21);

the temperature sensor (23) is arranged at the top end of the electric energy supply part (3) and used for sensing water temperature and sending out instructions; and the number of the first and second groups,

the circuit board is arranged on the temperature sensor and can receive the instruction of the temperature sensor and emit different lights;

the temperature sensor (23) senses the water temperature and then the water temperature is processed by the MCU processor (22) and displayed on the digital display screen (21).

7. A temperature display water delivery device, characterized by comprising a temperature display pipeline joint according to any one of claims 1 to 6; also comprises:

and the water inlet pipeline (4) is connected with the water inlet connecting part (12) so that water can enter the temperature display pipeline joint from the water inlet pipeline (4).

8. A temperature display water outlet device, which is characterized by comprising the temperature display pipeline joint of any one of claims 1-6; also includes:

and a water outlet member connected to the member connection part (11) so that water can flow from the inside of the temperature-display pipe joint to the water outlet member.

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